About
Research
Overview
Clinical research: Role of surgery in men who present with metastatic prostate cancer.
Despite the significant advances made in prostate cancer treatment over the last two decades, a recent study demonstrated no significant improvement in outcome in men with newly diagnosed metastatic prostate cancer (mPCa). Indeed, the 5-year relative survival rate in patients who present with mPCa is only 28%. Given such dismal prognosis of mPCa, new ideas and novel approaches must be explored. In this regard, recently emerging data suggest that controlling the local primary disease may enhance survival in men with mPCa. Indeed, the hypothesis is that there exists and dynamic interaction between primary and metastatic prostate cancer and that the removal of the primary disease site will render the metastatic disease more vulnerable to systemic treatment. Therefore, I helped establish an international team to prospectively evaluate surgical intervention (cytoreductive prostatectomy) in men with de novo mPCa. This study will accrue up to 870 patients with metastatic prostate cancer.
Laboratory research: mechanism of treatment resistance in prostate cancer cells
Degrading androgen receptor (AR) and its variants, especially AR-V7, via the DNA-binding domain (DBD) is a promising yet unvalidated treatment strategy in prostate cancer (CaP). In approximately two-thirds of patients with the lethal castration-resistant prostate cancer (CRPC) refractory to second-line antiandrogen therapy (SAT), AR and AR variants remain potential therapeutic targets. We reasoned that AR’s DBD is the clinically optimal target for neutralizing both AR and AR variants for the following three reasons. First, the domain is retained in AR variants associated with castration resistance found in CaP, including AR-V7. Second, acquired mutations that confer antiandrogen resistance occur mostly in the ligand-binding and N-terminal domains (LBD and NTD, respectively), suggesting that targeting the DBD will be effective in this setting as well. Third, targeting AR-DBD will complement drugs currently in use or being investigated to block AR’s LBD and NTD. As our core strategy, we used the principle of proteolysis targeting chimera (PROTAC). As heterobifunctional molecules, PROTACs catalyze protein degradation by recruiting ubiquitin E3 ligase to promote polyubiquitination of protein of interest (POI) and its subsequent degradation in the proteasome. Because one PROTAC molecule can degrade up to 200 POIs, the standard target occupancy pharmacology does not apply, and a relatively lower drug level is sufficient to be active. Our team’s overall goal is to understand various mechanisms of resistance to androgen deprivation therapy in CaP. Currently, my lab is focused on validating AR-DBD directed PROTAC in degrading AR and AR-V7 and develop candidate molecules for clinical translation
Medical Research Interests
Clinical Care
Overview
Isaac Yi Kim, MD, PhD, MBA, chair of the Department of Urology at Yale School of Medicine, specializes in the treatment and management of prostate cancer with the goal of helping patients navigate and better understand their disease. Although he cares for all men with localized disease, his clinical and research focus is in men with high-risk disease, recurrence after radiation, and metastatic prostate cancer to lymph nodes, bones, lungs, and abdominal organs.
Dr. Kim is an expert in minimally invasive robotic surgery and has performed more than 2,400 robot-assisted radical prostatectomies, which are surgeries to remove the entire prostate gland. In addition, he has established a same-day radical prostatectomy program by using the latest-generation da Vinci robot to remove a diseased prostate through a single, one-inch incision in the abdomen. This results in less pain—and pain medication—for the patient, who usually goes home the same day of the surgery.
He was inspired to become a prostate surgeon during his medical training, when he decided he wanted to help men he saw struggling with complications such as impotence and incontinence, which often develop after prostate cancer surgery. Those post-surgery problems are less common with expert robotic surgeons, he says. “I see what an impact and a difference the surgical robot has made in helping our patients and allaying their fears.”
As a professor at Yale School of Medicine, Dr. Kim is also a surgeon-scientist who is studying the mechanism of prostate cancer treatment resistance. He is the principal investigator in clinical trials focused on advanced and metastatic prostate cancer, providing surgery in men with Stage IV prostate cancer. He says the traditional paradigm shows that when cancer cells have escaped the organ of origin, it’s too late to help. But his early data is showing that removing the prostate may enhance the effectiveness of chemotherapy and hormonal therapies for men with late-stage disease.
Dr. Kim says working at Yale Medicine is rewarding because of the rich history and tradition that values innovation and creativity, and he is focused on providing the latest treatments for men who have any stage of prostate cancer. “Yale Urology is one of the larger departments in the nation and we attract patients from regions far beyond New Haven. We’re really dedicated to delivering the most innovative care in the most compassionate manner,” he says. “When a patient and concerned family members come in with a prostate cancer diagnosis, and I’m able to take care of it and see how he recovers, it is truly a privilege and a blessing.”
Clinical Specialties
Board Certifications
Urology
- Certification Organization
- AB of Urology
- Original Certification Date
- 2007
Yale Medicine News
News
News
- January 16, 2025
Yale Urology Research [Q4: October-December 2024]
- January 07, 2025Source: Yale New Haven Health
Against All Odds: How One Patient Overcame Prostate Cancer with Determination and a Life-Saving Treatment
- December 16, 2024
2024 Yale Urology Holiday Party
- November 21, 2024
Inaugural Weiss Distinguished Alumni Award